Yoshifumi Shirakami

Transport mechanisms of trans-1-amino-3-fluoro[1-14C]cyclobutanecarboxylic acid in prostate cancer cells

INTRODUCTION We investigated the mechanisms of trans-1-amino-3-fluoro[1-(14)C]cyclobutanecarboxylic acid (anti-[(14)C]FACBC) transport by human-derived prostate cancer (PCa) cells and normal human prostatic epithelial cells (PrECs). METHODS Using PCa cells (DU145, PC-3, LNCaP) and PrECs, we performed the following in vitro experiments: time-course, kinetics, competitive inhibition by synthetic/naturally occurring amino acids (AAs), exchange transport with synthetic/naturally occurring AAs and pH-dependency of anti-[(14)C]FACBC uptake. We also examined the amino acid transporter (AAT) expression using flow cytometry. RESULTS The uptake of anti-[(14)C]FACBC by LNCaP and DU145 cells was higher than that by PC-3 and PrECs. The K(m) values for anti-[(14)C]FACBC were 64.4 and 191.7 μmol/L in the DU145 cells and PrECs, respectively. Total levels of anti-[(14)C]FACBC uptake were positively correlated with the expression level of system ASC in PCa cells. The contributions of Na(+)-dependent AATs to anti-[(14)C]FACBC uptake were greater than those of Na(+)-independent AATs, especially in PCa cells. In the presence of Na(+), glutamine and serine showed the strongest inhibitory effect against anti-[(14)C]FACBC uptake, suggesting that system ASC, especially ASCT2, is an important AAT for anti-[(14)C]FACBC. In contrast, phenylalanine and 2-amino-bicyclo[2,2,1]heptane-2-carboxylic acid, but not N-ethylmaleimide, almost completely inhibited the anti-[(14)C]FACBC uptake in the absence of Na(+), indicating the contribution of LAT1. In the exchange transport experiments, glutamine showed the strongest transstimulation of intracellular anti-[(14)C]FACBC efflux in DU145 cells. Furthermore, the contributions of Na(+)-independent AATs to the uptake of anti-[(14)C]FACBC in DU145 and PrECs were greater under acidic pH conditions than under neutral or alkaline pH conditions. CONCLUSIONS Total uptake of anti-[(14)C]FACBC by PCa cells correlates with the expression level of system ASC in PCa cells. Furthermore, LAT1 is an important transport system for anti-[(14)C]FACBC uptake, especially in an acidic environment, such as the intra-tumoural environment.

Kinetic analyses of trans-1-amino-3-[18F]fluorocyclobutanecarboxylic acid transport in Xenopus laevis oocytes expressing human ASCT2 and SNAT2

INTRODUCTION Trans-1-amino-3-[(18)F]fluorocyclobutanecarboxylic acid (anti-[(18)F]FACBC) is a promising amino acid positron emission tomography (PET) radiotracer for visualizing prostate cancer. We previously showed that anti-FACBC is transported by amino acid transporters, especially by alanine-serine-cysteine transporter 2 (ASCT2), which is associated with tumor growth. We studied this affinity to assess the mechanism of anti-FACBC transport in prostate cancer cells. METHODS Kinetic assays for trans-1-amino-3-fluoro-[1-(14)C]cyclobutanecarboxylic acid ([(14)C]FACBC) were performed in Xenopus laevis oocytes over-expressing either ASCT2 or sodium-coupled neutral amino acid transporter 2 (SNAT2), both of which are highly expressed in prostate cancer cells. We also examined the kinetics of [(14)C]FACBC uptake using mammalian cell lines over-expressing system L amino acid transporter 1 or 2 (LAT1 or LAT2). Results: ASCT2 and SNAT2 transported [14C]FACBC with Michaelis–Menten kinetics Km values of 96.7 ± 45.2 μM and 196.5 ± 19.7 μM, respectively. [correted]. LAT1 and LAT2 transported [(14)C]FACBC with Michaelis-Menten Km values of 230.4 ± 184.5 μM and 738.5 ± 87.6 μM, respectively. CONCLUSIONS Both ASCT2 and SNAT2 recognize anti-FACBC as a substrate. Anti-FACBC has higher affinity for ASCT2 than for SNAT2, LAT1, or LAT2. The ASCT2-preferential transport of anti-[(18)F]FACBC in cancer cells could be used for more effective prostate cancer imaging.

Differences in Transport Mechanisms of trans-1-Amino-3-[18F]Fluorocyclobutanecarboxylic Acid in Inflammation, Prostate Cancer, and Glioma Cells: Comparison with l-[Methyl-11C]Methionine and 2-Deoxy-2-[18F]Fluoro-d-Glucose

PurposeWe aimed to elucidate trans-1-amino-3-[18F]fluorocyclobutanecarboxylic acid (anti-[18F]FACBC) uptake mechanisms in inflammatory and tumor cells, in comparison with those of l-[methyl-11C]methionine ([11C]Met) and 2-deoxy-2-[18F]fluoro-d-glucose ([18F]FDG).ProceduresUsing carbon-14-labeled tracers, in vitro time-course, pH dependence, and competitive inhibition uptake experiments were performed in rat inflammatory (T cells, B cells, granulocytes, macrophages), prostate cancer (MLLB2), and glioma (C6) cells.ResultsAnti-[14C]FACBC uptake ratios of T/B cells to tumor cells were comparable, while those of granulocytes/macrophages to tumor cells were lower than those for [14C]FDG. Over half of anti-[14C]FACBC uptake by T/B and tumor cells was mediated by Na+-dependent amino acid transporters (system ASC), whereas most [14C]Met transport in all cells was mediated by Na+-independent carriers (system L).ConclusionsThe low anti-[18F]FACBC accumulation in granulocytes/macrophages may be advantageous in discriminating inflamed regions from tumors. The significant anti-[18F]FACBC uptake in T/B cells may cause false-positives in some cancer patients who undergo FACBC-positron emission tomography (PET).

Comparative evaluation of transport mechanisms of trans-1-amino-3-[18F]fluorocyclobutanecarboxylic acid and l-[methyl-11C]methionine in human glioma cell lines

Positron emission tomography (PET) with amino acid tracers is useful for the visualization and assessment of therapeutic effects on gliomas. Our purpose is to elucidate the transport mechanisms of trans-1-amino-3-[¹⁸F]fluorocyclobutanecarboxylic acid (anti-[¹⁸F]FACBC) and L-[methyl-¹¹C]methionine ([¹¹C]Met) in normal human astrocytes (NHA), low-grade (Hs683, SW1088), and high-grade (U87MG, T98G) human glioma cell lines. Because the short half-lives of fluorine-18 and carbon-11 are inconvenient for in vitro experiments, trans-1-amino-3-fluoro[1-¹⁴C]cyclobutanecarboxylic acid (anti-[¹⁴C]FACBC) and L-[methyl-¹⁴C]methionine ([¹⁴C]Met) were used instead of the PET tracers. Time-course uptake experiments showed that uptake of anti-[¹⁴C]FACBC was 1.4-2.6 times higher than that of [¹⁴C]Met in NHA and low-grade glioma cells, and was almost equal to that of [¹⁴C]Met in high-grade glioma cells. To identify the amino acid transporters (AATs) involved in the transport of anti-[¹⁴C]FACBC and [¹⁴C]Met, we carried out competitive inhibition experiments using synthetic/naturally-occurring amino acids as inhibitors. We found that anti-[¹⁴C]FACBC uptake in the presence of Na⁺ was strongly inhibited by L-glutamine and L-serine (the substrates for ASC system AATs), whereas L-phenylalanine and 2-amino-bicyclo[2,2,1]heptane-2-carboxylic acid (BCH, the substrates for L system AATs) robustly inhibited Na⁺-independent anti-[¹⁴C]FACBC uptake. Regardless of Na⁺, [¹⁴C]Met uptake was inhibited strongly by L-phenylalanine and BCH. Moreover, the exchange transport activity of L-glutamine for anti-[¹⁴C]FACBC was stronger than that of BCH in the presence of Na⁺, whereas that for [¹⁴C]Met was almost equal to BCH. These results demonstrate that ASC and L are important transport systems for anti-[¹⁸F]FACBC uptake, while system L is predominantly involved in [¹¹C]Met transport in human astrocytes and glioma cells.

Accumulation of trans-1-amino-3-[(18)F]fluorocyclobutanecarboxylic acid in prostate cancer due to androgen-induced expression of amino acid transporters.

PurposeAndrogens play a crucial role in prostate cancer progression, and trans-1-amino-3-[18F]fluorocyclobutanecarboxylic acid (anti-[18 F]FACBC) are used for visualization of prostate cancer. We examined the effect of androgen on the expression of amino acid transporters related to anti-[18F]FACBC transport and uptake of trans-1-amino-3-fluoro-[1-14C]cyclobutanecarboxylic acid (anti-[14C]FACBC).ProceduresExpression of amino acid transporters and uptake of anti-[14C]FACBC in androgen receptor (AR)-positive LNCaP and AR-negative DU145 human prostate cancer cells cultured with/without 5α-dihydrotestosterone (DHT) and the effect of bicalutamide, an AR antagonist, on DHT-associated changes were investigated.ResultsDHT stimulated the expression of amino acid transporters ASCT2, SNAT5, 4F2 heavy chain, and LAT3 in LNCaP but not in DU145 cells. Anti-[14C]FACBC uptake was enhanced, in a DHT-dependent manner, in LNCaP cells only.ConclusionsDHT enhanced the expression of ASCT2, the transporter responsible for anti-[18F]FACBC uptake, thereby increasing anti-[14C]FACBC uptake in AR-positive LNCaP cells. Androgen-mediated induction may contribute to the distinct anti-[18F]FACBC accumulation pattern in prostate cancer.

[14C]Fluciclovine (alias anti-[14C]FACBC) uptake and ASCT2 expression in castration-resistant prostate cancer cells

INTRODUCTION trans-1-Amino-3-[(18)F]fluorocyclobutanecarboxylic acid ([(18)F]fluciclovine, also known as anti-[(18)F]FACBC), is a tracer for positron emission tomography (PET) imaging for detection of tumors such as prostate cancer (PCa). Our previous study showed that ASCT2 (Na(+)-dependent amino acid transporter (AAT)) mediates fluciclovine uptake in androgen-dependent PCa cells; its expression is influenced by androgen, a key hormone in the progression of primary PCa and castration-resistant prostate cancer (CRPC). In this study, we investigated the uptake mechanisms and feasibility of [(18)F]fluciclovine for CRPC in the androgen-dependent PCa cell line LNCaP and LNCaP-derivatives LNCaP-SF and LN-REC4. METHODS LNCaP-SF was established after long-term cultivation of LNCaP in steroid-free conditions, and LN-Pre and LN-REC4 were established from LNCaP inoculated in intact and castrated severe combined immunodeficient mice, respectively. Uptake and competitive inhibition experiments were performed with trans-1-amino-3-fluoro[1-(14)C]cyclobutanecarboxylic acid ([(14)C]fluciclovine) to characterize the involvement of AATs in androgen-dependent PCa (LNCaP and LN-Pre) and CRPC-like (LNCaP-SF and LN-REC4) cell lines. AAT expression was analyzed by Western blotting, and [(14)C]fluciclovine uptake in androgen-dependent PCa and CRPC-like cell lines were investigated in the presence or absence of dihydrotestosterone (DHT). RESULTS The contribution of Na(+)-dependent AATs to [(14)C]fluciclovine uptake in all cell lines was 88-98%, and [(14)C]fluciclovine uptake was strongly inhibited by L-glutamine and L-serine, the substrates for Na(+)-dependent alanine-serine-cysteine (system ASC) AATs, in the presence of Na(+). DHT enhanced ASCT2 expression in LNCaP, LN-Pre, and LN-REC4, but not in LNCaP-SF, and the responses of ASCT2 expression to DHT correlated with [(14)C]fluciclovine uptake. CONCLUSIONS System ASC, especially ASCT2, could play a major role in [(14)C]fluciclovine uptake into CRPC-like and androgen-dependent PCa cells, suggesting [(18)F]fluciclovine-PET is applicable to the detection of CRPC as well as androgen-dependent PCa. ADVANCE IN KNOWLEDGE [(18)F]fluciclovine-PET may be applied for the detection of CRPC. IMPLICATION FOR PATIENT CARE [(18)F]fluciclovine-PET may permit early intervention for CRPC treatment.

Preclinical properties and human in vivo assessment of 123I-ABC577 as a novel SPECT agent for imaging amyloid-β

Although PET amyloid-β imaging agents are available, they cannot be used with SPECT scanners. Maya et al . report that a novel SPECT imaging agent, 123I-ABC577, has a high affinity for amyloid-β, and differentiates Alzheimers disease patients from healthy controls, with low non-specific retention in the white matter.

Evaluation of trans-1-amino-3-18F-fluorocyclobutanecarboxylic acid accumulation in low-grade glioma in chemically induced rat models: PET and autoradiography compared with morphological images and histopathological findings.

INTRODUCTION Magnetic resonance imaging (MRI) can have a problem to delineate diffuse gliomas with an intact blood-brain barrier (BBB) especially when a marked peritumoral edema is present. We evaluated the potential of trans-1-amino-3-(18)F-fluorocyclobutanecarboxylic acid (anti-(18)F-FACBC) positron emission tomography (PET) to delineate the extent of diffuse gliomas by comparing PET findings with autoradiography, in vivo and ex vivo MRI, and histopathology findings. METHODS Dynamic PET was performed in rats with N-ethyl-N-nitrosourea-induced glioma for 60 min after anti-(18)F-FACBC injection. Contrast-enhanced MRI was performed before or after PET. The PET images were fused with in vivo and ex vivo MR images, and histopathological images for direct comparisons. Autoradiograms were compared with the results of Evans Blue (EB) extravasation (to assess BBB integrity) and hematoxylin-eosin staining. RESULTS Histopathological examination, including EB extravasation assessment, and enhanced T1-weighted MRI identified several diffuse gliomas with slight BBB disruption, similar to low-grade human gliomas. Anti-(18)F-FACBC uptake was specific and high in the gliomas, irrespective of BBB integrity. Higher anti-(18)F-FACBC uptake corresponded to areas of T2 hyperintensity, independent of gadolinium enhancement. Ex vivo autoradiography also showed high anti-(18)F-FACBC accumulation in tumors lacking EB extravasation and a correlation between anti-(18)F-FACBC accumulation and tumor cell density, but not EB extravasation. CONCLUSIONS Anti-(18)F-FACBC-PET allowed visualization of gliomas irrespective of BBB integrity. The tumor-to-normal uptake ratio of anti-(18)F-FACBC generally correlated with the relative cell density. Anti-(18)F-FACBC PET combined with MRI shows promise for preoperative glioma delineation. ADVANCES IN KNOWLEDGE Radiopharmaceuticals that cross the BBB, such as anti-(18)F-FACBC, are taken up by low-grade gliomas with equivocal MRI findings due to an intact BBB. IMPLICATIONS FOR PATIENT CARE Surgery is the first-line therapy for low-grade gliomas; therefore, delineation of their extent in the presence of an intact BBB is essential to planning surgery that removes the entire neoplasm, which will positively affect long-term survival.

Comparison of trans-1-amino-3-[18 F]fluorocyclobutanecarboxylic acid (anti-[18 F]FACBC) accumulation in lymph node prostate cancer metastasis and lymphadenitis in rats

INTRODUCTION Trans-1-amino-3-[(18)F]fluorocyclobutanecarboxylic acid (anti-[(18)F]FACBC) is a positron emission tomography (PET) tracer used to visualize prostate cancer (PCa). In this study, we investigated the differences in anti-[(18)F]FACBC accumulation between metastatic and inflamed lymph node (LN) lesions. METHODS A PCa LN metastasis (PLM) model was developed by inoculating a rat PCa cell line, MAT-Ly-Lu-B2, into popliteal LNs of Copenhagen rats. Acute lymphadenitis (AL) was induced by injecting concanavalin A (Con A) into the hind footpad, and chronic lymphadenitis (CL) was induced by daily injection of Con A into the tissues surrounding the popliteal LNs for 2weeks. Main lesions of all animal models were established in lumbar and/or inguinal LNs. Biodistribution and dynamic PET imaging data were acquired after tracer injection. T2-weighted magnetic resonance (MR) images were registered with PET images. RESULTS In the biodistribution study, the uptake ratios of PLM-to-lymphadenitis in lesional lumbar and inguinal LNs were 0.97-1.57 and 1.47-2.08 at 15 and 60min post-anti-[(18)F]FACBC injection respectively. In PET imaging, the lesional lumbar LNs of CL and PLM, but not of AL, were visualized on anti-[(18)F]FACBC-PET/MR fusion images without disturbance from radioactivity from urine, and　the rank order of anti-[(18)F]FACBC accumulation at 50-60 post-injection in lesional lumbar LNs was PLM>CL>AL. CONCLUSIONS Anti-[(18)F]FACBC accumulation in LNs with PLM was higher than that in inflamed LNs. ADVANCES IN KNOWLEDGE The study showed that although low but significant levels of anti-[(18)F]FACBC uptake by chronic inflamed lesions might cause false-positives in anti-[(18)F]FACBC-PET in some PCa patients, uptake of the tracer at acutely inflamed sites was minimal. IMPLICATIONS FOR PATIENT CARE The findings of this study suggest the potential of Anti-[(18)F]FACBC for distinguishing between tumors and acute inflammation in clinical practice.

Indirect labeling of macroaggregated albumin with Indium-111 via diethylenetriaminepentaacetic acid

It is ideal to perform a simultaneous pulmonary perfusion and ventilation scan in cases of suspected pulmonary thromboembolism. Indium-111 (111In)-diethylenetriaminepentaacetic acid (DTPA)-macroaggregated albumin (MAA) was designed for this purpose. MAA was conjugated with DTPA at a molar ratio of 1:100 and incubated with 111In-chloride for 30 min at room temperature. DTPA-MAA could be labelled with 111In above a 96% labelling efficiency without MAA particle aggregates making their particles larger than desirable. The obtained 111In-DTPA-MAA was intravenously injected into normal mice and their biodistribution was studied at 15 and 180 min after injection. A gamma camera image was obtained 15 min after injection. 111In-DTPA-MAA was stable in vitro and in vivo, and gave high uptake of murine lung in the biodistribution study and clearly visualized murine lung in the scintigraph. Using 111In-DTPA-MAA as a pulmonary perfusion agent, a simultaneous pulmonary perfusion and ventilation scan with technetium-99m-ventilation agents is able to be performed using the dual-isotope technique. 111In-DTPA-MAA may be a potential pulmonary perfusion agent.